Transcript The Ear

PowerPoint® Lecture Slides prepared by Vince Austin, University of Kentucky
The Special Senses
Part C
Human Anatomy & Physiology, Sixth Edition
Elaine N. Marieb
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings
15
The Ear: Hearing and Balance
 The three parts of the ear are the inner, outer, and
middle ear
 The outer and middle ear are involved with hearing
 The inner ear functions in both hearing and
equilibrium
 Receptors for hearing and balance:
 Respond to separate stimuli
 Are activated independently
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The Ear: Hearing and Balance
Figure 15.25a
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Outer Ear
 The auricle (pinna) is composed of:
 The helix (rim)
 The lobule (earlobe)
 External auditory canal
 Short, curved tube filled with ceruminous glands
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Outer Ear
 Tympanic membrane (eardrum)
 Thin connective tissue membrane that vibrates in
response to sound
 Transfers sound energy to the middle ear ossicles
 Boundary between outer and middle ears
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Middle Ear (Tympanic Cavity)
 A small, air-filled, mucosa-lined cavity
 Flanked laterally by the eardrum
 Flanked medially by the oval and round windows
 Pharyngotympanic tube – connects the middle ear to
the nasopharynx
 Equalizes pressure in the middle ear cavity with the
external air pressure
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Middle Ear (Tympanic Cavity)
Figure 15.25b
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Ear Ossicles
 The tympanic cavity contains three small bones: the
malleus, incus, and stapes
 Transmit vibratory motion of the eardrum to the
oval window
 Dampened by the tensor tympani and stapedius
muscles
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Ear Ossicles
Figure 15.26
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Inner Ear
Figure 15.27
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The Vestibule
 The central egg-shaped cavity of the bony labyrinth
 Suspended in its perilymph are two sacs: the
saccule and utricle
 The saccule extends into the cochlea
 The utricle extends into the semicircular canals
 These sacs:
 House equilibrium receptors called maculae
 Respond to gravity and changes in the position of
the head
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The Vestibule
Figure 15.27
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The Cochlea
 A spiral, conical, bony chamber that:
 Extends from the anterior vestibule
 Contains the organ of Corti (hearing receptor)
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Sound and Mechanisms of Hearing
 Sound vibrations beat against the eardrum
 The eardrum pushes against the ossicles, which
presses fluid in the inner ear against the oval and
round windows
 This movement sets up shearing forces that pull on
hair cells
 Moving hair cells stimulates the cochlear nerve that
sends impulses to the brain
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The Semicircular Canals
Figure 15.27
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The Semicircular Canals
 Three canals that each define two-thirds of a circle
and lie in the three planes of space
 Membranous semicircular ducts line each canal and
communicate with the utricle
 The ampulla is the swollen end of each canal and it
houses equilibrium receptors in a region called the
crista ampullaris
 These receptors respond to angular movements of
the head
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Mechanisms of Equilibrium and Orientation
 Vestibular apparatus – equilibrium receptors in the
semicircular canals and vestibule
 Maintains our orientation and balance in space
 Vestibular receptors monitor static equilibrium
 Semicircular canal receptors monitor dynamic
equilibrium
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Anatomy of Maculae
Figure 15.35
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Deafness
 Conduction deafness – something hampers sound
conduction to the fluids of the inner ear (e.g., impacted
earwax, perforated eardrum, osteosclerosis of the ossicles)
 Sensorineural deafness – results from damage to the neural
structures at any point from the cochlear hair cells to the
auditory cortical cells
 Tinnitus – ringing or clicking sound in the ears in the
absence of auditory stimuli
 Meniere’s syndrome – labyrinth disorder that affects the
cochlea and the semicircular canals, causing vertigo, nausea,
and vomiting
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